HUT66078A - Identification unit for rubbish containers - Google Patents

Abstract

The proposal is for an identification unit for rubbish containers (1) which can be emptied by emptying devices or by tipping into dustcarts and can be weighed to determine the weight of the rubbish in them before and after emptying on the emptying device or tipping. The rubbish container (1) has a recognition sensor (7) which can be brought into correspondence with an identification system on board the individual dustcart and associated with the empting device or tipping out procedure. To give the identification device long-term reliability, the recognition sensor (7) is inserted and/or enclosed on all sides in a recess (8) of the stiffening lip or tipping grip (6) on the rubbish container (2).

Description

BACKGROUND OF THE INVENTION The present invention relates to an identifier unit for trash receptacles that can be discharged into garbage collection vehicles by means of emptying devices or so-called bumpers, and to measure the weight of the garbage therein or a roll-out identification system, which is assigned to the rollover and is mounted on the vehicle itself.

Methods and equipment for weighing garbage, particularly household and industrial garbage, are known in the field of garbage disposal, which not only enables the exact weight of the garbage in the waste bin to be determined, but also allows the respective quantities of waste to be assigned to the respective waste holder. and the provision of weight-based fee accounting.

Whilst flat-rate garbage disposal fees do not provide an incentive for individuals and companies to reduce the amount of garbage they have, they are more likely to have a greater impact on reducing the amount of garbage generated.

In particular, it will be possible to persuade trash owners to sort the resulting garbage in such a way as to allow separate collection of the biological waste, the recyclable waste and the waste to be sent to the landfill. If the fee is then calculated using different fee units for different types of garbage, the actual garbage removal can be optimized through the garbage delivery fees payable.

However, the basic prerequisite for the proper disposal of trash is that each trash bin is provided with an identification unit that not only clearly identifies it to the trash owner, but also that only trash containers that carry the appropriate identification mark for the type of garbage.

In any event, it is crucial that the identification unit on the trash can be arranged to not only work seamlessly with the identification system on the garbage collection vehicle, but also to be sufficiently robust during long-term use.

The object of the present invention is solved by the fact that the signal recognition sensor is located in and / or enclosed in one of the recesses of the stiffening flange or the spout connection frame of the waste receptacle.

The stiffening flange or the dump connection bracket is a vital part of the bin as it interacts with the unloaders or dumpers on the vehicle. For this reason, the stiffening flanges and the clamping brackets are made in a robust and contour-resistant design and can therefore be used to permanently reliably and securely position the signal recognition sensor.

In particular, it has proven to be advantageous for the signal pickup sensor to be impact-proof, e.g., padded or spaced apart from all surrounding walls, i.e. floating in the nest.

It is also expedient for the nest to consist of a pot-or-trough-shaped mold in the stiffening flange or in the spigot-fitting frame. In this case, the nest can be easily molded between the reinforcing ribs of the stiffening flange or the spreader connection frame in the debris injection molding tool.

After inserting the signal recognition sensor, the nest closure cover can be secured by welding, gluing, screwing, or riveting on the bracing flange or overlay bracket, regardless of whether the pot or trough shaping opening and the overlay bracket under the brace are arranged on the side, top side or circumference.

However, according to the invention, it is possible for the signal recognition sensor and / or the cover for closing it to have a snap, latch or clamp connection.

- 5 also fastened on the bracing flange or the flange connection frame.

According to the invention, the signal recognition sensor may optionally be molded directly into the stiffening flange or spout of the plastic injection bin as a liner.

Finally, it is conceivable, within the scope of the present invention, that the signal recognition sensor and / or the cover is provided with a counter-thread through which it can be anchored in a thread formed in the stiffening flange or the flange connection frame.

It is essential for each mounting or arrangement of the signal recognition sensor that the signal recognition sensor is secured against unauthorized access in the socket formed on the stiffening flange or the spigot attachment frame, so that it can only be removed if the sensor itself, its nest and / or the sealing lid is destroyed or damaged.

The invention will now be described in more detail with reference to the accompanying drawings.

In the drawing, Figure 1 is a perspective view of a trash bin designed to cooperate with a dump truck or dump truck, Figure 2 shows the range indicated by II in Figure 1 ··· · · · * · ···· Figure 3 illustrates the mounting arrangement of the ID unit shown in Figure 2 in a natural size with an identification unit assigned to the present invention. Fig. 4 is a view corresponding to Fig. 2 with an identification unit embedded in a modified arrangement; Fig. 5 shows a region of Fig. 4 in the direction of arrow V, thus viewed from above; Figure 1A shows again the sub-region of the bin shown in Figure 1, II, with the ID unit repeatedly disposed Fig. 7 shows the arrangement according to Fig. 6 according to line VII-VII, partly in section, partly in view, and Fig. 8-11. Figures 1 to 5 show various other options for positioning the token sensor serving as the identification unit, in section, in the stiffening flange or in the spout connection frame of the bin.

Figure 1 of the drawing shows a so-called standardized trash container 1, so-called standardized trash container, with the actual 2 trash receptacles above it can be closed with a hinged cover 3. Below, the hopper 2 is equipped with two impellers 4 mounted near its rear edge, of which only one is shown.

Two hinges 5 are integrated in the hinge connection between the hinge cover 3 and the hopper receptacle 2, which allow the entire debris hopper 1 to be easily moved by means of the wheels 4 if necessary.

An important embodiment of the waste container 1 is that a stiffening flange 6 or a discharge connection frame 6 is formed at the upper end of the waste container 2. This stiffening flange 6, or folding coupling frame 6, serves primarily to cooperate with the unloading or unloading device of the garbage container 1, which is generally designed or operated as a so-called tilting device.

In fact, the garbage collector discharge or dump device engages the debris hopper 1 at the stiffening flanges 6 or the discharge attachment bracket of the garbage collection container 2 to enable it to be raised, tilted and lowered to form an evacuation cycle.

There is an increasing requirement to empty 1 trash into the garbage collection vehicle ··· ·························································································· · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · Instead of the standard flat-rate garbage delivery fees, we will use weight-based garbage delivery fees in the future to reduce the amount of garbage generated.

In order to calculate the garbage delivery charges depending on this weight, it is essential that the garbage collection vehicles are not only equipped with a weighing system, but also have an identification system to identify the bin. A prerequisite for the operability of the identification system is that each bin 1 is provided with an identification unit, since only this enables the debris collection system to be activated through the identification system of the garbage collection vehicle and simultaneously to operate the discharge device and dump device equipped with this weighing system.

The identification unit shall be assigned to the trash container 1 in such a way that this unit can cooperate with the trash container identification system in the normal use of the trash container. However, the identification unit must be mounted in such a way that it cannot be removed and removed from the waste container 2 without further ado. Lastly, the identifier is · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · |

- 9 units must be installed in such a way that they remain insensitive to the stresses of constant use and do not allow any change to its coding without further ado.

2-7 of the drawing. 1 to 4, the identification unit comprises a signal recognition sensor 7 at each bin 1, which is located in a receptacle 8 of the stiffening flange 6 of the bin 2. Here, it is important that the signal recognition sensor 7 is placed in the nest 8 at a given distance from each of the surrounding walls of the nest 8, for example cushioned, and enclosed around it from all sides.

The nest 8 may be, for example, a pot or trough mold formed between the stiffeners 9 in the stiffening flange 6 or the flange connection frame where the stiffeners 9 serve to stabilize the stiffening flange 6 or the flange connection frame 6 sufficiently.

After insertion of the signal recognition sensor 7 into the nest 8, the nest 8 can be closed by inserting a cover 10. In doing so, the cover 10 may be secured to the bracing flange 6 by means of welding, gluing, screwing or riveting such that removal or replacement of the signal recognition sensor 7 can only be achieved by damaging the cover 10 and / or bracing flange 6.

♦ ··

Figures 2 and 3 of the drawing show an embodiment of a brace 6 or a flange connection frame in which the socket 8 is formed by a pot or trough having an opening on the underside of the brace 6 or a flange connection frame; must be closed with a lid. In doing so, the lid 10 is rigidly connected to the edge of the opening of the nest 8 by gluing and / or welding.

In the embodiment shown in Figures 4 and 5, the signal recognition sensor 7 is formed as a receptacle 8 in the form of a pot or trough having an upward opening in the stiffening flange 6 of the waste receptacle 2 or in the folding connection frame. Therefore, this opening is closed with a top cover 10. In this case, the lid 10 is rigidly connected to the stiffening flange 6 or the spigot connection frame 11 by means of a rivet connection.

Finally, Figures 6 and 7 of the drawing show an exemplary embodiment in which the socket 8 of the signal recognition sensor 7 in the stiffening flange 6 or the flange connection frame is open laterally. Thus, the lid 10 is placed laterally on the circumferential surface of the stiffening flange 6 or the flange connection frame so as to close the socket 8 after insertion of the signal recognition sensor 7. Here, too, rivets 11 are provided for securing the lid 10.

Figure 7 of the drawing also shows that the 7 tokens * · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · |

The sensor 11 is disposed at a distance from each of the enclosing walls, preferably by being padded therein, for example by inserting foam pads or even floating or supported by spring elements. In this way, optimum impact protection of the signal recognition sensor 7 can be ensured, although the reinforcing ribs 9 of the stiffening flange 6 and the spout connection frame provide optimum protection against damage.

The arrangement of the signal recognition sensor 7 within the stiffening flange 6 of the bin 2 of the bin 1 of the bin 1 has the advantage of being able to communicate with an interrogator of an identification system on the bin that is directly mounted on the release device cooperates with stiffening flange or flange connection frame.

8, the receptacle 8 of the signal recognition sensor 7 can be secured in the stiffening flange 6 of the trash receptacle 2 or in the discharge coupling frame by the use of a lid 10 having an annular recessed neck portion with a stopper 13. This hanging edge 13 of the lid 10 is here operatively connected to an additional shaped hanging edge 14 formed on the collar 15 surrounding the housing 8 of the signal recognition sensor 7 in annular form. 13 and 14 hanging edges on »« ··

They cooperate as a snap, latch or clamping connection 12 which can only be released by dismantling the cover 10 or the neck 12 or collar 15 thereof.

Figure 9 of the drawing makes it clear that the signal recognition sensor 7 may itself be provided with a back-cut annular ring 16 which may cooperate to provide a snap-on, locking or clamping engagement with the back-cut stop 14 of the collar 15. Again, the signal recognition sensor 7 can only be removed if the collar 15 and / or its cut-away clamping edge 14 is disrupted or damaged. If, as usual, the waste receptacle 2 is formed as an injection molded part of plastic, it is of course possible to mold the signal recognition sensor 7 as a insert part into the stiffening flange 6 or the spout connection frame as illustrated in Figure 10.

Fig. 11 illustrates that the stiffening flange 6 or spout connection frame of the hopper receptacle 2 may also include a tubular connector 16 having an internal thread 17 in which the signal recognition sensor 7 may be secured with an appropriately fitting external thread 18. However, it would be conceivable to screw the signal recognition sensor 7 into a receptacle 8 open only to one side, as shown in FIG.

- Install 13, which can then be secured with thread and counter-thread.

Of course, in Figures 8, 9 and 11, it is also possible for the cooperating functional parts to be bonded or welded together.

Claims (8)

1. An identifier unit for trash receptacles that can be discharged into dumpster vehicles by means of emptying devices or dumpers, and to measure the weight of the trash contained therein before and after the emptying process, operable with its assigned on-board identification system, characterized in that the signal recognition sensor (7) is disposed in a receptacle (8) in the bin (8) of the stiffening flange or the spout connection frame (6) of the waste container (2) and / or it is enclosed around everything. Identification unit according to Claim 1, characterized in that the signal recognition sensor (7) is mounted in the nest (8) in a shock-proof manner, for example padded or at a distance from each of the enclosing walls, i.e. floating or floating. Identification unit according to Claim 1 or 2, characterized in that the nest (8) is a pot or trough shaped in the stiffening flange or the flange connection frame (6) and can be closed by a lid (10). · · Ν * · ·::::::: * the • Consists of 9 formatting. 4. Identification unit according to any one of claims 1 to 3, characterized in that the cover (10) is fixed by welding, gluing, screwing or riveting (11) on the stiffening flange or the fitting connection frame (6). 5. Identification unit according to any one of claims 1 to 4, characterized in that the opening of the pot or trough shaped receptacle (8) and the lid (10) sealing it are arranged on the underside or on the upper side or circumferentially of the stiffening flange. 6. Identification unit according to any one of claims 1 to 4, characterized in that the signal recognition sensor (7) and / or the cover (10) closing its nest (8) is secured to the stiffening flange or the folding connection frame (6) by snap, locking or clamping connection. Identification unit according to Claim 1 or 2, characterized in that the signal recognition sensor (7) is firmly molded as a insert part in the stiffening flange or the discharge connection frame (6) of the plastic injection bin (2). 8. Identification unit according to any one of claims 1 to 3, characterized in that the signal recognition sensor (7) and / or the cover (10) with a counter-turn · I * • 4 · · ···· 18), through which it can be anchored in a thread (17) formed in the stiffening flange or the folding connection frame (6).